Beyond Feynman Diagrams Lecture 2. Lance Dixon Academic Training Lectures CERN April 24-26, 2013
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1 Beyond Feynman Diagrams Lecture 2 Lance Dixon Academic Training Lectures CERN April 24-26, 2013
2 Modern methods for trees 1. Color organization (briefly) 2. Spinor variables 3. Simple examples 4. Factorization properties 5. BCFW (on-shell) recursion relations Beyond Feynman Diagrams Lecture 2 April 25,
3 How to organize gauge theory amplitudes Avoid tangled algebra of color and Lorentz indices generated by Feynman rules structure constants Take advantage of physical properties of amplitudes Basic tools: - dual (trace-based) color decompositions - spinor helicity formalism Beyond Feynman Diagrams Lecture 2 April 25,
4 Color Standard color factor for a QCD graph has lots of structure constants contracted in various orders; for example: Write every n-gluon tree graph color factor as a sum of traces of matrices T a in the fundamental (defining) representation of SU(N c ): + all non-cyclic permutations Use definition: + normalization: Beyond Feynman Diagrams Lecture 2 April 25,
5 Double-line picture ( t Hooft) In limit of large number of colors N c, a gluon is always a combination of a color and a different anti-color. Gluon tree amplitudes dressed by lines carrying color indices, 1,2,3,,N c. Leads to color ordering of the external gluons. Cross section, summed over colors of all external gluons = S color-ordered amplitudes 2 Can still use this picture at N c =3. Color-ordered amplitudes are still the building blocks. Corrections to the color-summed cross section, can be handled exactly, but are suppressed by 1/ N c 2 Beyond Feynman Diagrams Lecture 2 April 25,
6 Trace-based (dual) color decomposition For n-gluon tree amplitudes, the color decomposition is momenta color helicities color-ordered subamplitude only depends on momenta. Compute separately for each cyclicly inequivalent helicity configuration Because comes from planar diagrams with cyclic ordering of external legs fixed to 1,2,,n, it only has singularities in cyclicly-adjacent channels s i,i+1, Similar decompositions for amplitudes with external quarks. Beyond Feynman Diagrams Lecture 2 April 25,
7 Far fewer factorization channels with color ordering 3 k ( n k ) partitions only n k 4 k+2 n 2 n n-1 k+2 k+1 Beyond Feynman Diagrams Lecture 2 April 25,
8 Color sums Parton model says to sum/average over final/initial colors (as well as helicities): Insert: and do color sums to get: Up to 1/N c 2 suppressed effects, squared subamplitudes have definite color flow important for development of parton shower Beyond Feynman Diagrams Lecture 2 April 25,
9 Spinor helicity formalism Scattering amplitudes for massless plane waves of definite momentum: Lorentz 4-vectors k i m k i2 =0 Natural to use Lorentz-invariant products (invariant masses): But for elementary particles with spin (e.g. all except Higgs!) there is a better way: Take square root of 4-vectors k i m (spin 1) use Dirac (Weyl) spinors u a (k i ) (spin ½) q,g,g, all have 2 helicity states, Beyond Feynman Diagrams Lecture 2 April 25,
10 Massless Dirac spinors Positive and negative energy solutions to the massless Dirac equation, are identical up to normalization. Chirality/helicity eigenstates are Explicitly, in the Dirac representation Beyond Feynman Diagrams Lecture 2 April 25,
11 Spinor products Instead of Lorentz products: Use spinor products: Identity These are complex square roots of Lorentz products (for real k i ): Beyond Feynman Diagrams Lecture 2 April 25,
12 ~ Simplest Feynman diagram of all 2 3 R g R add helicity information, numeric labels 1 L L 4 Fierz identity helicity suppressed as 1 3 or 2 4 Beyond Feynman Diagrams Lecture 2 April 25,
13 Useful to rewrite answer Crossing symmetry more manifest if we switch to all-outgoing helicity labels (flip signs of incoming helicities) useful identities: holomorphic antiholomorphic Schouten Beyond Feynman Diagrams Lecture 2 April 25,
14 Symmetries for all other helicity config s C P Beyond Feynman Diagrams Lecture 2 April 25,
15 Unpolarized, helicity-summed cross sections (the norm in QCD) Beyond Feynman Diagrams Lecture 2 April 25,
16 Helicity formalism for massless vectors Berends, Kleiss, De Causmaecker, Gastmans, Wu (1981); De Causmaecker, Gastmans, Troost, Wu (1982); Xu, Zhang, Chang (1984); Kleiss, Stirling (1985); Gunion, Kunszt (1985) obeys (required transversality) (bonus) under azimuthal rotation about k i axis, helicity +1/2 helicity -1/2 so as required for helicity +1 Beyond Feynman Diagrams Lecture 2 April 25,
17 Next most famous pair of Feynman diagrams (to a higher-order QCD person) g g Beyond Feynman Diagrams Lecture 2 April 25,
18 (cont.) Choose to remove 2 nd graph Beyond Feynman Diagrams Lecture 2 April 25,
19 Properties of 1. Soft gluon behavior Universal eikonal factors for emission of soft gluon s between two hard partons a and b Soft emission is from the classical chromoelectric current: independent of parton type (q vs. g) and helicity only depends on momenta of a,b, and color charge: Beyond Feynman Diagrams Lecture 2 April 25,
20 Properties of (cont.) 2. Collinear behavior z 1-z Square root of Altarelli-Parisi splitting probablility Universal collinear factors, or splitting amplitudes depend on parton type and helicity Beyond Feynman Diagrams Lecture 2 April 25,
21 Simplest pure-gluonic amplitudes Note: helicity label assumes particle is outgoing; reverse if it s incoming Strikingly, many vanish: Maximally helicity-violating (MHV) amplitudes: 1 = 2 (i-1) Parke-Taylor formula (1986) Beyond Feynman Diagrams Lecture 2 April 25,
22 MHV amplitudes with massless quarks Helicity conservation on fermion line more vanishing ones: the MHV amplitudes: Related to pure-gluon MHV amplitudes by a secret supersymmetry: after stripping off color factors, massless quarks ~ gluinos Grisaru, Pendleton, van Nieuwenhuizen (1977); Parke, Taylor (1985); Kunszt (1986); Nair (1988) Beyond Feynman Diagrams Lecture 2 April 25,
23 Properties of MHV amplitudes 1. Soft limit 2. Gluonic collinear limits: So and plus parity conjugates Beyond Feynman Diagrams Lecture 2 April 25,
24 Spinor Magic Spinor products precisely capture square-root + phase behavior in collinear limit. Excellent variables for helicity amplitudes scalars 0 gauge theory angular momentum mismatch Beyond Feynman Diagrams Lecture 2 April 25,
25 Utility of Complex Momenta i- Makes sense of most basic process: all 3 particles massless real (singular) k+ j- complex (nonsingular) use conjugate kinematics for (++-): Beyond Feynman Diagrams Lecture 2 April 25,
26 Tree-level plasticity BCFW recursion relations BCFW consider a family of on-shell amplitudes A n (z) depending on a complex parameter z which shifts the momenta to complex values For example, the [n,1 shift: On-shell condition: similarly, Momentum conservation: Beyond Feynman Diagrams Lecture 2 April 25,
27 Analyticity recursion relations Cauchy: meromorphic function, each pole corresponds to one factorization Where are the poles? Require on-shell intermediate state, Beyond Feynman Diagrams Lecture 2 April 25,
28 Final formula Britto, Cachazo, Feng, hep-th/ A k+1 and A n-k+1 are on-shell color-ordered tree amplitudes with fewer legs, evaluated with 2 momenta shifted by a complex amount Beyond Feynman Diagrams Lecture 2 April 25,
29 To finish proof, show Propagators: Britto, Cachazo, Feng, Witten, hep-th/ point vertices: Polarization vectors: Total: Beyond Feynman Diagrams Lecture 2 April 25,
30 MHV example Apply the [n,1 BCFW formula to the MHV amplitude The generic diagram vanishes because = 4 > 3 So one of the two tree amplitudes is always zero The one exception is k = 2, which is different because - Beyond Feynman Diagrams Lecture 2 April 25,
31 MHV example (cont.) For k = 2, we compute the value of z: Kinematics are complex collinear The only term in the BCFW formula is: Beyond Feynman Diagrams Lecture 2 April 25,
32 MHV example (cont.) Using one confirms This proves the Parke-Taylor formula by induction on n. Beyond Feynman Diagrams Lecture 2 April 25,
33 Initial data Parke-Taylor formula Beyond Feynman Diagrams Lecture 2 April 25,
34 A 6-gluon example 220 Feynman diagrams for gggggg Helicity + color + MHV results + symmetries 3 BCF diagrams related by symmetry Beyond Feynman Diagrams Lecture 2 April 25,
35 The one diagram Beyond Feynman Diagrams Lecture 2 April 25,
36 Simple final form Simpler than form found in 1980s Mangano, Parke, Xu (1988) despite (because of?) spurious singularities Relative simplicity much more striking for n>6 Beyond Feynman Diagrams Lecture 2 April 25,
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